KR101409088B1 - A Fan Coil Unit - Google Patents

Abstract

The present invention relates to a fan coil unit equipped with a master controller for measuring a discharge air temperature or an inlet / outlet water temperature with a plurality of temperature sensors, and comparing the measured value with a predetermined temperature value to selectively control the flow rate.

A fan coil unit according to the present invention comprises a heat exchanger for exchanging heat between cold water or hot water and room air, a blowing means for forcing air flow, a control box for controlling the operation of the blowing means, A temperature control valve for selectively controlling a flow rate to be introduced into the heat exchanger, a remote controller having a set temperature input by a user and equipped with an indoor temperature sensor, And a master controller connected to the control box, wherein the master controller compares the measured temperature of the temperature sensor with a set temperature input by a user using the remote controller, and determines the opening of the flow control valve and the operation of the blower And the like. According to such a configuration, there is an advantage that the air conditioning efficiency is improved.

Fan coil unit, temperature sensor, discharge temperature, inlet / outflow temperature, flow control

Description

The fan coil unit {A Fan Coil Unit}

1 is a longitudinal sectional view showing a conventional fan coil unit configuration.

Fig. 2 is an installation state of the fan coil unit according to the present invention. Fig.

3 is a schematic view showing a configuration of a fan coil unit according to the present invention.

Description of the Related Art [0002]

100. Fan coil unit 110. Case

112. Outlet 114. Duct Connector

116. Top panel 120. Filter

130. Heat exchanger 132. Receiving pipe

134. Water supply pipe 140. Air supply means

142. Motor 144. Blower fan

146. Fan housing 160. Temperature sensor

162. Air temperature sensor 164. Input temperature sensor

166. Outlet temperature sensor 180. Master controller

200. Flow control valve 220. Freezer

240. Boiler 250. Supply pipe

252. Supply shut off valve 260. Return pipe

262. Recovery shut off valve R. remote

The present invention relates to a fan coil unit, and more particularly, to a fan coil unit which comprises a master controller for measuring a discharge air temperature or an inlet / outlet water temperature by a plurality of temperature sensors and for comparing the measured value with a preset temperature value, To a fan coil unit.

Generally, the fan coil unit receives cold water or hot water from a freezer or a boiler when the building is heated or cooled, passes the heat exchanger through the heat exchanger to cool or heat the surrounding air, blower is driven to discharge air into the room, thereby cooling or heating the air conditioner.

The structure of such a fan coil unit will be described with reference to FIG. 1 attached hereto.

1 is a longitudinal sectional view showing a configuration of a conventional fan coil unit.

As shown in the drawing, a conventional fan coil unit includes a casing 1 forming an outer appearance, a heat exchanger 2 installed at an inclination inside the casing 1 to heat-exchange indoor air, A drain pan 3 installed at a lower portion of the heat exchanger 2 for receiving condensed water generated in the heat exchange and discharging the condensed water to the outside, blowing air in the room to the heat exchanger 2 side for heat exchange, A filter 6 for filtering the dust contained in the air in the room and the like provided on the side of the inlet 5 formed in the lower portion of the casing 1 to blow out air to the outside of the casing Consists of.

The blowing fan 4 is fixed on the mounting plate 10 and rotates as the motor 8 is driven to suck outside air.

Therefore, when the cold water or hot water is supplied from the refrigerator or the boiler (not shown) to the heat exchanger 2, the air in the room is guided through the inlet 5 by the rotation of the blowing fan 4 driven by the motor 8, Dust or the like is filtered by the filter 6 and then flows into the interior of the casing 1 to forcefully pass through the heat exchanger 2.

When the blowing fan 4 is driven, the air in the room is forcibly introduced into the casing 1 to be heat-exchanged while passing through the heat exchanger 2, And is discharged to the room through the discharge grille 9, so that the room is cooled and heated.

However, the conventional air conditioner having the above-described configuration has the following problems.

That is, the heat exchanger 2 is connected to a freezer or a boiler to receive cold water or hot water. At this time, a pump (not shown) for forcing the flow of cold water or hot water is provided between the refrigerator or the boiler and the heat exchanger 2 .

In addition, such a pump increases or decreases the supply amount of cold water or hot water from the freezer or the boiler depending on the room temperature set by the user.

That is, when the fan coil unit is operated for cooling in the summer season, if the user sets the temperature to a lower temperature, even if the room is heated to hot heat, the fan is pumped only by the flow rate corresponding to the set temperature. There is a problem of deterioration.

In addition, the above-mentioned problem causes the user to feel emotional complaints and eventually to lower the product satisfaction, which is not preferable.

An object of the present invention is to solve the problems of the prior art as described above, and it is an object of the present invention to provide a method and apparatus for measuring a discharge air temperature or an inlet / outlet water temperature by using a plurality of temperature sensors, And a master controller for controlling the fan coils.

A fan coil unit according to the present invention comprises a heat exchanger for exchanging heat between cold water or hot water and room air, a blowing means for forcing air flow, a control box for controlling the operation of the blowing means, A temperature control valve for selectively controlling a flow rate to be introduced into the heat exchanger, a remote controller having a set temperature input by a user and equipped with an indoor temperature sensor, And a master controller connected to the control box, wherein the master controller compares the measured temperature of the temperature sensor with a set temperature input by the user using the remote controller, and determines the opening of the flow control valve and the operation of the blower And a control unit.

Wherein the temperature sensor comprises an air temperature sensor for measuring the temperature of the hot or cold air in the heat exchanger, an inlet temperature sensor for measuring the temperature of the water flowing into the heat exchanger, and a temperature sensor for measuring the temperature of the water flowing through the heat exchanger And the master controller increases the opening degree of the flow control valve when hot water is supplied to the heat exchanger and the measured temperature measured by the air temperature sensor is lower than the set temperature, The opening degree of the flow control valve is maintained and the number of revolutions of the motor constituting the blowing means is reduced or the motor is stopped.

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Wherein the temperature sensor comprises an air temperature sensor for measuring the temperature of the air exchanged with hot water or cold water in the heat exchanger, a water temperature sensor for measuring a temperature of water flowing into the heat exchanger, Wherein the master controller increases the opening of the flow control valve when hot water is supplied to the heat exchanger and the measured temperature measured by the air temperature sensor is lower than the set temperature, The opening degree of the flow control valve is maintained when the measured temperature of the sensor is equal to or higher than the set temperature, and the rotation speed of the motor constituting the blowing means is reduced or the motor is stopped.

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According to the present invention having such a configuration, there is an advantage that heat exchange efficiency is improved.

Hereinafter, a configuration of a duct type fan coil unit adopting a preferred embodiment of the present invention will be described with reference to FIG.

Fig. 2 shows a state in which the fan coil unit according to the present invention is installed.

As shown in the figure, the fan coil unit is installed outside the indoor space I where air conditioning is required, and supplies heat-exchanged air to the indoor space I, and the inside of the fan coil unit is connected to the duct D So as to communicate with the indoor space.

A damper (P) is provided on one side of the duct. The damper P is provided to allow the air flowing through the duct D to flow selectively into the indoor space I and correspond to the number of the indoor spaces I.

The indoor space I is provided with a remote controller R for operating the operation of the fan coil unit 100.

Accordingly, as the user operates the remote controller R, the damper P selectively opens the duct D, so that the air discharged from the fan coil unit 100 is supplied to the indoor space I.

A control box 102 for controlling the operation of the fan coil unit 100 is provided in the fan coil unit 100 and the control box 102 is electrically connected to the master controller 180 .

Hereinafter, the configuration of the fan coil unit will be described with reference to FIG. 3 is a schematic view showing a configuration of a fan coil unit according to the present invention.

As shown in the figure, the fan coil unit 100 is operated by a remote control (R) operation of the user and has a rectangular parallelepiped shape having a low height.

In addition, indoor air is sucked to the right side of the fan coil unit 100, and heat-exchanged air is discharged to the room to the left side.

A suction port (not shown) for introducing air into the case 110 is formed on the right side surface of the case 110 forming the outer surface of the fan coil unit 100. On the left side surface of the case 110, (112) is perforated.

The discharge port is provided with a duct connecting hole 114 so that a duct (not shown) for guiding the heat-exchanged air to the room can be connected.

A space inside the case 110 is shielded by a top panel 116 and a filter 120 is provided in a space on the right side inside the case 110. The filter 120 is configured to filter foreign matter contained in the air introduced into the fan coil unit 100 through a suction port and has a size slightly smaller than the right side surface of the case 110.

A heat exchanger 130 is disposed on the left side of the filter 120. The heat exchanger 130 has a rectangular parallelepiped shape and is installed upright so as to circulate hot water or cold water to the inside of the heat exchanger 130 to exchange heat between the air and the water.

The heat exchanger 130 has a water inlet pipe 132 for introducing hot water or cold water into the heat exchanger 130. A heat exchanger 130 is disposed at a right side of the water inlet pipe 132, And a water outlet pipe 134 through which water is exchanged with air through the inside thereof.

The water inlet pipe 132 and the water outlet pipe 134 are communicated with each other and the water inlet pipe 132 is connected to the flow control valve 200.

The flow control valve 200 selectively controls the flow rate of the refrigerant flowing into the heat exchanger 130 and is interlocked with the temperature sensor 160, which will be described in detail below.

A freezer 220 and a boiler 240 are provided between the flow control valve 200 and the water pipe 134. The refrigerator 220 and the boiler 240 are connected to a supply pipe 250 and the supply pipe 250 is provided with a supply shutoff valve 252.

The coolant or hot water discharged from the freezer 220 or the boiler 240 flows along the supply pipe 250 and the flow rate is controlled by the flow control valve 200, To the inside of the heat exchanger (130).

A return pipe 260 is provided between the water pipe 134 and the freezer 220 and the boiler 240 and a plurality of recovery shutoff valves 262 are provided in the return pipe 260.

That is, the recovery shutoff valve 262 is provided on the inlet side of the cooler and the boiler 240. When the fan coil unit 100 is operated in the cooling or heating mode, one of the pair of the shutoff valves 262 One will block the flow of water.

A blowing means 140 is provided on the left side of the heat exchanger 130. The blowing means 140 generates a flow of air to blow the heat-exchanged air to the room.

The blowing means 140 includes a motor 142 for generating a rotational power when the power is applied, a blowing fan 144 for generating a wind force by receiving rotational power from the motor 142, And a fan housing 146 guiding the flow direction of the generated air flow.

The motor 142 is fixedly coupled to the fan housing 146 and the blowing fan 144 is fixed inside the fan housing 146 in a rotatable state without interference.

The front end of the fan housing 146 is formed with an opening and connected to the discharge port.

Accordingly, the air forced in the direction of the outer circumferential surface of the blowing fan 144 moves along the inner circumferential surface of the fan housing 146, and can be discharged to the outside of the fan coil unit 100 through the outlet.

The above-described control box 102 is provided in front of the blowing means 140. The control box 102 controls the operation of the motor 142 and is electrically connected to the master controller 180 to be described below to receive various control signals from the master controller 180.

The fan coil unit 100 is configured such that the opening degree of the flow control valve 200 is selectively controlled according to the temperature of the heat exchanged air and the temperature difference of water passing through the water inlet pipe 132 and the water outlet pipe 134 do.

To this end, the fan coil unit 100 is provided with a temperature sensor 160 for measuring the temperature of one side of the heat exchanger 130.

More specifically, the temperature sensor 160 includes an air temperature sensor 162 fixed to the left side of the heat exchanger 130 and measuring the temperature of the air exchanged with the cold water or the hot water, An incoming water temperature sensor 164 for measuring an incoming water temperature and an outflow temperature sensor 166 for measuring a water temperature flowing out through the heat exchanger 130.

A master controller 180 is further provided at one side of the fan coil unit 100 for controlling the opening degree of the flow control valve 200 by comparing the temperature value measured by the temperature sensor 160 with the set temperature .

More specifically, the master controller 180 is installed outside the indoor space I to receive a measured temperature value of the temperature sensor 160, and the control box 102 provides a control signal from the master controller 180 And controls the operation of the fan coil unit 100.

That is, when the fan coil unit 100 is operated in the cooling or heating mode, the master controller 180 changes the temperature of the water flowing into the heat exchanger 130 into hot water or cold water, The flow rate control valve 200, the damper P and the motor 142 are controlled by comparing the measured value with the set temperature of the user.

Hereinafter, the operation of the fan coil unit 100 constructed as described above will be described in the case of operation in the summer cooling mode.

When the fan coil unit 100 is operated in the cooling mode and the user sets the temperature to 23 ° C using the remote controller R, the boiler 240 is stopped and only the refrigerator 220 is operated .

The recovery shutoff valve 262 located on the right side of the recovery pipe 260 is shielded and the recovery shutoff valve 262 located on the left side is opened and the supply shutoff valve 252 located on the right side of the supply pipe 250 is opened, And the supply shutoff valve 252 located on the left side is opened.

The motor 142 generates rotational power to assist the blowing fan 144 to generate wind power. The wind force moves along the inner circumferential surface of the fan housing 146 and can be discharged to the room through the discharge port. .

When the fan coil unit 100 and the freezer 220 are operated in this state, the freezer 220 discharges cold water and supplies the cold water to the heat exchanger (not shown) through the inlet pipe 132 130, respectively.

The cold water supplied to the inside of the heat exchanger 130 is heat-exchanged with the indoor air introduced into the case 110 through the inlet port through the heat exchanger 130 and is heated.

The heated water is circulated while being introduced into the freezer 220 through the water outlet pipe 134 and the return pipe 260.

At this time, the air temperature sensor 162 measures the temperature of the heat exchanged air with the cold water passing through the heat exchanger 130, and sends it to the master controller 180.

At the same time, the inlet temperature sensor 164 and the outlet temperature sensor 166 measure the temperature of the water flowing into the heat exchanger 130 and the temperature of the water passing through the inside of the heat exchanger 130, .

The master controller 180 adjusts the opening of the flow control valve 200 by comparing a measured value provided from the temperature sensor 160 with a set value.

More specifically, when the measured temperature measured by the air temperature sensor 162 is 25 [deg.] C, which is 23 [deg.] C or higher, which is the set temperature, the opening degree of the flow control valve 200 is increased so that more cold water passes through the heat exchanger 130 The cooling efficiency of the fan coil unit 100 is increased.

The master controller 180 increases the opening degree of the flow control valve 200 when the difference between the temperatures sensed by the intake temperature sensor 164 and the outflow temperature sensor 166 is equal to or greater than the preset temperature difference.

More specifically, when it is assumed that the set temperature difference is 15 占 폚, and the difference between the temperatures measured by the intake temperature sensor 164 and the outflow temperature sensor 166 is 18 占 폚, the valve controller controls the opening degree of the flow control valve 200 So that more cold water passes through the heat exchanger 130, thereby enhancing the cooling efficiency of the fan coil unit 100. [

On the other hand, when the measured temperature measured by the air temperature sensor 162 is lower than the set temperature or the temperature difference measured by the incoming temperature sensor 164 and the outflow temperature sensor 166 is less than the set temperature difference, The controller 180 maintains the opening of the flow control valve 200.

When the indoor temperature is equal to the set temperature while maintaining the opening degree of the flow control valve 200, the indoor temperature sensor, which is generally provided in the remote controller 102, detects the operation of the fan coil unit 100, .

At the same time, the master controller 180 simultaneously controls the operation of the damper P and the motor 142 by comparing the measured value provided from the temperature sensor 160 with the set value.

More specifically, when the measured temperature measured by the air temperature sensor 162 is equal to or higher than the preset temperature of 23 ° C, the master controller 180 controls the indoor space I The master controller 180 controls the rotational speed of the motor 142 to be higher as the area of the indoor space requiring air conditioning is widened The control box 102 is controlled so as to be raised.

However, if the room temperature measured by the room temperature sensor included in the specific remote controller R among the multiple indoor spaces I is lower than the set temperature, the master controller 180 receives the measured values from the room temperature sensor, The opening of the corresponding damper P is reduced or shielded through the control box 102.

When the fan coil unit 100 is operated in the heating mode and the user sets the temperature to 23 ° C using the remote controller R, the refrigerator 220 is stopped and only the boiler 240 .

The recovery shutoff valve 262 located on the left side of the recovery pipe 260 is shielded while the recovery shutoff valve 262 located on the right side is opened and the supply shutoff valve 252 located on the left side of the supply pipe 250 is opened, And the supply shutoff valve 252 located on the right side is opened.

The motor 142 generates rotational power to assist the blowing fan 144 to generate wind power. The wind force moves along the inner circumferential surface of the fan housing 146 and can be discharged to the room through the discharge opening do.

In this state, when the fan coil unit 100 and the boiler 240 operate, the boiler 240 discharges hot water and supplies the hot water to the heat exchanger (not shown) through the inlet pipe 132 130, respectively.

The hot water supplied to the inside of the heat exchanger 130 is heat-exchanged with the indoor air introduced into the case 110 through the inlet port through the heat exchanger 130 and is cooled.

The cooled water flows into the boiler 240 through the water outlet pipe 134 and the return pipe 260, and circulates.

At this time, the air temperature sensor 162 measures the temperatures of the hot water and the heat-exchanged air passing through the heat exchanger 130 and sends them to the master controller 180.

At the same time, the inlet temperature sensor 164 and the outlet temperature sensor 166 measure the temperature of the water flowing into the heat exchanger 130 and the temperature of the water passing through the inside of the heat exchanger 130, .

The master controller 180 adjusts the opening of the flow control valve 200 by comparing a measured value provided from the temperature sensor 160 with a set value.

More specifically, when the measured temperature measured by the air temperature sensor 162 is 20 ° C, which is lower than the set temperature of 23 ° C, the opening degree of the flow control valve 200 is increased so that more hot water passes through the heat exchanger 130 The heating efficiency of the fan coil unit 100 is increased.

The master controller 180 increases the opening degree of the flow control valve 200 when the difference between the temperatures sensed by the intake temperature sensor 164 and the outflow temperature sensor 166 is equal to or greater than the preset temperature difference.

More specifically, assuming that the set temperature difference is 15 占 폚, and the difference between the temperatures measured by the intake temperature sensor 164 and the outflow temperature sensor 166 is 18 占 폚, the master controller 180 controls the flow control valve 200 So that more hot water passes through the heat exchanger 130, so that the heating efficiency of the fan coil unit 100 is enhanced.

On the contrary, when the measured temperature measured by the air temperature sensor 162 is equal to or higher than the set temperature, or when the difference between the temperatures measured by the intake temperature sensor 164 and the outflow temperature sensor 166 is less than the set temperature difference, The controller 180 maintains the opening of the flow control valve 200.

Of course, if the opening degree of the flow control valve 200 is maintained and the room temperature becomes equal to the set temperature, the room temperature sensor generally provided in the remote controller R provides the measured temperature to the master controller 180, The operation of the damper P and the motor 142 is controlled.

More specifically, when all of the measured temperatures measured by the three indoor temperature sensors are equal to or higher than the set temperature, the master controller 180 stops the motor 142 and shields the multiple damper P,

When only the measured temperature measured by the specific indoor temperature sensor is higher than the set temperature among the three indoor temperature sensors, the master controller 180 shields only the damper corresponding to the indoor temperature sensor and reduces the rotation speed of the motor 142 do.

The scope of the present invention is not limited to the above-described embodiments, and many other modifications based on the present invention will be possible to those skilled in the art within the scope of the present invention.

In the fan coil unit according to the present invention as described above, the discharge air temperature or the inlet / outlet water temperature is measured by a plurality of temperature sensors, and the measured value is compared with a predetermined temperature value to determine the flow rate of the cold water or hot water flowing into the heat exchanger And a master controller for selectively controlling the master controller.

Therefore, the heat exchanging efficiency of the heat exchanger is improved and the air conditioning efficiency is increased.

In addition, since the set temperature set by the user can be quickly reached, there is an advantage that the product satisfaction is improved.

In addition, since the master controller, the flow control valve, and the plurality of temperature sensors are interlocked with each other to control the flow rate of the cold water or the hot water, the ease of use is improved.

Claims (6)

A heat exchanger for exchanging heat between cold water or hot water and indoor air, An air blowing means for forcing the air flow, A control box for controlling the operation of the blowing means, A temperature sensor for measuring a temperature of the heat exchanger; A flow control valve for selectively controlling a flow rate to be introduced into the heat exchanger, A remote controller having a set temperature input by a user and equipped with an indoor temperature sensor, And a master controller installed outside the indoor space and connected to the remote controller and the control box, The master controller includes: And controls the opening of the flow control valve and the operation of the blowing means by comparing the measured temperature of the temperature sensor with the set temperature inputted by the user using the remote control. delete The temperature sensor according to claim 1, An air temperature sensor for measuring the temperature of the hot-air or the heat-exchanged air in the heat exchanger, An inlet temperature sensor for measuring a temperature of water flowing into the heat exchanger, And an outflow temperature sensor for measuring a temperature of the water flowing out through the heat exchanger, The master controller includes: Wherein the control unit increases the opening of the flow control valve when hot water is supplied to the heat exchanger and the measured temperature measured by the air temperature sensor is lower than a set temperature, Wherein the opening degree of the flow control valve is maintained when the measured temperature of the room temperature sensor is equal to or higher than the set temperature and the number of rotations of the motor constituting the blowing means is reduced or the motor is stopped. delete The temperature sensor according to claim 1, An air temperature sensor for measuring the temperature of the hot-air or the heat-exchanged air in the heat exchanger, An inlet temperature sensor for measuring a temperature of water flowing into the heat exchanger, And an outflow temperature sensor for measuring a temperature of the water flowing out through the heat exchanger, The master controller includes: Wherein when the measured temperature measured by the air temperature sensor is equal to or higher than a set temperature, cold water is supplied to the heat exchanger, and the opening degree of the flow control valve is increased, Wherein the opening degree of the flow control valve is maintained when the measured temperature of the room temperature sensor is lower than a set temperature and the number of revolutions of the motor constituting the blowing means is reduced or the motor is stopped. delete

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